Electric hygienic diaphragm pump designed for efficient, air-free transfer of sanitary and industrial fluids with stable flow control and reduced operating costs.
| Compatible Machines / Systems | Application Area | Integration Type |
|---|---|---|
| Food & Beverage Processing Systems | Syrups, dairy, sauces, liquid ingredients | Sanitary DIN / hygienic piping systems |
| Pharmaceutical Production Equipment | Sterile dosing and precise fluid transfer | 316 stainless steel hygienic integration |
| Cosmetics Manufacturing Lines | Lotions, creams, gels, emulsions | Sanitary electric pump retrofit systems |
| Chemical Processing Units | Light to moderate chemical transfer | Electric diaphragm pump replacement systems |
| Existing AODD Pump Installations | Energy-efficient system upgrades | Direct drop-in retrofit compatibility |
The Graco HE80-0036 Quantm Pump, QHD-FGFF1SSCWPOPTS140031 is a high-efficiency electric double diaphragm pump engineered for hygienic and industrial fluid transfer applications. It replaces traditional air-operated diaphragm systems with an electric drive, delivering improved energy efficiency, consistent flow control, and reduced operating costs.
Built with 316 stainless steel wetted components, this pump is designed for sanitary applications such as food processing, pharmaceuticals, and personal care manufacturing. The QHD-FGFF1SSCWPOPTS140031 configuration ensures compatibility with hygienic piping systems and safe handling of sensitive or contamination-prone fluids.
Its seal-less, self-priming design supports continuous-duty operation while minimizing maintenance requirements and downtime. The system is optimized for retrofit installation, allowing seamless replacement of existing pneumatic pumps without major system changes.
The Graco HE80-0036 Quantm Pump is part of Graco’s QUANTM electric pump series designed to modernize industrial fluid handling by eliminating compressed air systems and improving overall efficiency.
It provides stable, precise fluid transfer performance for hygienic and industrial environments while reducing energy consumption and system complexity.
